Operation of a Five-Stage 40,000-CM(2)-Area Insulator Stack at 158 KV/CM

Anderson, R A; Clark, Robert E; Corcoran, P A; Douglas, John W; Gilliland, T L; Horry, M L; Hughes, Thomas P; Ives, H C; Long, F W; Martin, T H; McDaniel, D H; Milton, Osborne; Mostrom, Michael A; Seamen, J F; Shoup, R W; Smith, I D; Smith, J W; Spielman, R B; Struve, K W; Stygar, W A; Vogtlin, George E; Wagoner, T C; Yamamoto, Osamu

Operation of a Five-Stage 40,000-CM(2)-Area Insulator Stack at 158 KV/CM

Conference · Wed Jun 30 00:00:00 EDT 1999

OSTI ID:8475

Anderson, R A ^[1]; Clark, Robert E; Corcoran, P A; Douglas, John W; Gilliland, T L; Horry, M L; Hughes, Thomas P; Ives, H C; Long, F W; Martin, T H; McDaniel, D H; Milton, Osborne; Mostrom, Michael A; Seamen, J F; Shoup, R W; Smith, I D; Smith, J W; Spielman, R B; Struve, K W; Stygar, W A more »

Sandia National Laboratories

We have demonstrated successful operation of a 3.35- m-diameter insulator stack at 158 kV/cm on five consecutive Z-accelerator shots. The stack consisted of five +45°-profile 5.715-cm-thick cross-linked-polystyrene (Rexolite- 1422) insulator rings, and four anodized- aluminum grading rings shaped to reduce the field at cathode triple junctions. The width of the voltage pulse at 89% of peak was 32 ns. We compare this result to a new empirical flashover relation developed from previous small-insulator experiments conducted with flat unanodized electrodes. The relation predicts a 50% flashover probability for a Rexolite insulator during an applied voltage pulse when E_maxe^-0.27/d(t_effC)^1/10 = 224, where E_max is the peak mean electric field (kV/cm), d is the insulator thickness (cm), t_eff is the effective pulse width (ps), and C is the insulator circumference (cm). We find the Z stack can be operated at a stress at least 19% higher than predicted. This result, and previous experiments conducted by Vogtlin, suggest anodized electrodes with geometries that reduce the field at both anode and cathode triple junctions would improve the flashover strength of +45° insulators.

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Research Organization:: Sandia National Laboratories (SNL), Albuquerque, NM, and Livermore, CA

Sponsoring Organization:: USDOE

DOE Contract Number:: AC04-94AL85000

OSTI ID:: 8475

Report Number(s):: SAND99-1668C; ON: DE00008475

Country of Publication:: United States

Language:: English

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Operation of a Five-Stage 40,000-CM(2)-Area Insulator Stack at 158 KV/CM

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